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Results: 9
Number of items: 9
  • Haghiralsadat, F., Amoabediny, G., Naderinezhad, S., Forouzanfar, T., Helder, M. N., & Zandieh-Doulabi, B. (2018). Preparation of PEGylated cationic nanoliposome-siRNA complexes for cancer therapy. Artificial Cells, Nanomedicine and Biotechnology, 46(S1), 684-692. https://doi.org/10.1080/21691401.2018.1434533
  • Haghiralsadat, F., Amoabediny, G., Helder, M. N., Naderinezhad, S., Sheikhha, M. H., Forouzanfar, T., & Zandieh-Doulabi, B. (2018). A comprehensive mathematical model of drug release kinetics from nano-liposomes, derived from optimization studies of cationic PEGylated liposomal doxorubicin formulations for drug-gene delivery. Artificial Cells, Nanomedicine and Biotechnology, 46(1), 169-177 . https://doi.org/10.1080/21691401.2017.1304403
  • Open Access
    Haghiralsadat, F., Amoabediny, G., Naderinezhad, S., Zandieh-Doulabi, B., Forouzanfar, T., & Helder, M. N. (2018). Codelivery of doxorubicin and JIP1 siRNA with novel EphA2-targeted pegylated cationic nanoliposomes to overcome osteosarcoma multidrug resistance. International Journal of Nanomedicine, 13, 3853-3866. https://doi.org/10.2147/IJN.S150017
  • Haghiralsadat, F., Amoabediny, G., Sheikhha, M. H., Zandieh-doulabi, B., Naderinezhad, S., Helder, M. N., & Forouzanfar, T. (2017). New liposomal doxorubicin nanoformulation for osteosarcoma: Drug release kinetic study based on thermo and pH sensitivity. Chemical Biology and Drug Design, 90(3), 368-379. https://doi.org/10.1111/cbdd.12953
  • Open Access
    Haghiralsadat, F., Amoabediny, G., Sheikhha, M. H., Forouzanfar, T., Arough, J. M., Helder, M. N., & Zandieh-doulabi, B. (2017). A Novel Approach on Drug Delivery: Investigation of A New Nano-Formulation of Liposomal Doxorubicin and Biological Evaluation of Entrapped Doxorubicin on Various Osteosarcoma Cell Lines. Cell Journal, 19(Supplement 1), 55-64. https://doi.org/10.22074/cellj.2017.4502
  • Salehi-Nik, N., Amoabediny, G., Shokrgozar, M. A., Mottaghy, K., Klein-Nulend, J., & Zandieh-Doulabi, B. (2015). Surface modification of silicone tubes by functional carboxyl and amine, but not peroxide groups followed by collagen immobilization improves endothelial cell stability and functionality. Biomedical Materials, 10(1), Article 015024. https://doi.org/10.1088/1748-6041/10/1/015024
  • Anisi, F., dds., N., Amoabediny, G., Pouran, B., Haghighipour, N., & Zandieh-Doulabi, B. (2014). Applying shear stress to endothelial cells in a new perfusion chamber: hydrodynamic analysis. Journal of Artificial Organs, 17(4), 329-336. https://doi.org/10.1007/s10047-014-0790-0
  • Open Access
    Salehi-Nik, N., Amoabediny, G., Ahmadizadeh, R., Heli, B., & Zandieh-Doulabi, B. (2013). Hydrodynamically stable adhesion of endothelial cells on gelatin electrospun nanofibrous scaffolds. APCBEE Procedia, 7, 169-174. https://doi.org/10.1016/j.apcbee.2013.08.029
  • Open Access
    dds., N., Amoabediny, G., Pouran, B., Tabesh, H., Shokrgozar, M. A., Haghighipour, N., Khatibi, N., Anisi, F., Mottaghy, K., & Zandieh-Doulabi, B. (2013). Engineering parameters in bioreactor's design: a critical aspect in tissue engineering. BioMed Research International, 2013, 762132. https://doi.org/10.1155/2013/762132
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